Sequencer revenue is unsustainable. Current rollups like Arbitrum and Optimism capture MEV and fees from their isolated sequencers, but this creates a single point of failure and economic capture. A competitive market for block building, proven by Flashbots on Ethereum, will eliminate this rent.
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Why Shared Sequencers Will Redefine Rollup Economics
Shared sequencers like Espresso and Astria are not just about decentralization. They are a new economic layer that captures cross-rollup MEV and enables atomic composability, fundamentally altering rollup value flows and infrastructure incentives.
introduction
THE ECONOMIC SHIFT
Introduction
Shared sequencers will commoditize transaction ordering, forcing rollups to compete on execution and settlement.
The value migrates to execution. When ordering becomes a cheap commodity via networks like Espresso or Astria, the economic moat shifts to superior virtual machines, faster provers, and unique state transitions. Rollups become execution layers, not settlement kingdoms.
Evidence: The proposer-builder separation (PBS) model on Ethereum L1 reduced validator extractable value by over 90%. Shared sequencers apply this PBS logic to L2s, decoupling security from profit. Protocols like dYdX moving to a dedicated Cosmos chain highlight the cost of inefficient, captive sequencers.
thesis-statement
THE ECONOMIC SHIFT
The Core Argument: From Cost Center to Profit Center
Shared sequencers transform sequencer operations from a pure expense into a sustainable, profitable business model for rollups.
Sequencers are a cost center for solo rollups today, requiring significant capital for hardware and operations with no direct revenue stream beyond transaction ordering.
Shared sequencers create a profit center by aggregating transaction flow from multiple rollups, enabling economies of scale and unlocking new revenue from MEV extraction and cross-chain arbitrage.
This flips the economic model from subsidizing infrastructure to monetizing network position, similar to how Lido and Coinbase monetize validator access on Ethereum.
Evidence: Espresso Systems' shared sequencer network demonstrates this by allowing rollups to capture and share MEV revenue, a model that solo sequencers cannot access.
market-context
THE COST OF ISOLATION
The Current State: Fragmented Liquidity, Centralized Control
Rollups today operate as isolated, high-fee silos where centralized sequencers capture maximum value from users.
Sequencer revenue is pure rent extraction. A single entity controls transaction ordering and fee collection, creating a monopoly on a public good. This model mirrors the early internet's ISP gatekeeping.
Liquidity fragmentation is a direct consequence. Assets on Arbitrum, Optimism, and Base are trapped, forcing users to pay for slow, expensive bridges like Across or Stargate. This destroys capital efficiency and composability.
The MEV opportunity is squandered. Isolated sequencers capture minimal value, while a shared network could aggregate cross-rollup MEV, creating a larger, more competitive market for searchers.
Evidence: Over $7B in TVL is locked in bridge contracts, a direct tax on interoperability. Sequencer profit margins often exceed 90%, with zero competitive pressure to lower fees.
key-trends
SHARED SEQUENCERS
Key Trends Driving Adoption
The centralized sequencer is the final major point of rent extraction and centralization in the modular stack. Shared sequencers solve this by creating a competitive marketplace for block building.
01
The Problem: The Solo Sequencer Tax
Today, a rollup's single sequencer captures 100% of MEV and charges monopoly prices for transaction ordering. This creates a ~$100M+ annual rent extracted from users and dApps, stifling economic activity on the L2 itself.
- Centralized Failure Point: A single operator can censor transactions or go offline.
- Value Leakage: Profits that should accrue to the rollup's security (via fees) or community (via rewards) are captured by a single entity.
100%
MEV Capture
~$100M+
Annual Rent
02
The Solution: A Credibly Neutral Marketplace
Projects like Astria, Espresso, and SharedSequencer.org decouple execution from sequencing. They create a decentralized network of sequencers that rollups can permissionlessly plug into.
- Economic Efficiency: Competition drives down sequencing costs, with potential for >50% reduction in base fees.
- Enhanced Security & Liveness: Byzantine Fault Tolerant (BFT) consensus replaces a single point of failure.
- Native Interoperability: Atomic cross-rollup composability becomes possible, enabling new DeFi primitives.
>50%
Fee Reduction
BFT
Consensus
03
The New Business Model: Value-Accrual to the L2
Shared sequencers flip the economic model. Instead of value leaking to an external sequencer, it can be redirected back to the rollup's security budget or token holders.
- Fee Sovereignty: Rollups can set their own fee market and capture a portion of sequencing revenue.
- Staked-Based Ordering: Models like EigenLayer's restaking allow the rollup's native token or ETH restakers to secure sequencing, aligning incentives.
- Sustainable Security: Creates a flywheel where increased usage funds improved decentralization and security.
Flywheel
Effect
Sovereign
Fee Market
04
The Atomic Composability Catalyst
A shared sequencing layer enables atomic cross-rollup transactions without fragile bridging. This unlocks "synchronous DeFi" across multiple execution environments.
- Unified Liquidity: Enables intent-based architectures (like UniswapX or CowSwap) to settle across rollups atomically.
- Killer App Enabler: Complex derivatives, leveraged positions, and arbitrage strategies that span multiple L2s become feasible with sub-second finality.
- Network Effect Moats: The first rollup collective to achieve this at scale will attract disproportionate liquidity and developer mindshare.
Atomic
Cross-Rollup
Sub-second
Finality
ROLLUP SEQUENCING MODELS
The Economic Flywheel: Value Capture Comparison
Quantifying how different sequencing architectures capture and redistribute value, from MEV to fees.
| Economic Vector | Solo Sequencer (Status Quo) | Shared Sequencer (Emerging) | Decentralized Sequencer Set (Aspirational) |
|---|---|---|---|
Sequencer Profit Margin |
| 20-40% (shared with rollup) | 5-15% (distributed to validators) |
MEV Capture & Redistribution | Opaque, 100% retained | Transparent auction; 50-80% redistributed to rollup treasury | Fully transparent; >90% burned or redistributed to stakers |
Cross-Rollup Atomic Composability | |||
Fee Market Sovereignty | Rollup-controlled, static | Network-controlled, dynamic | Protocol-controlled, algorithmic |
Time-to-Finality for L1 Settlement | ~1 hour (standard bridge delay) | < 10 minutes (shared state proofs) | < 5 minutes (enshrined verification) |
Capital Efficiency for Liquidity Providers | Low (fragmented pools) | High (unified liquidity layer) | Maximum (native cross-chain settlement) |
Protocol Revenue from Sequencing | $0 (cost center) | $50M-$200M annual (projected) | $1B+ annual (network-scale) |
deep-dive
THE ECONOMIC ENGINE
Deep Dive: Atomic Composability as the Killer App
Shared sequencers unlock a new economic layer by enabling atomic, cross-rollup transactions, directly monetizing composability.
Atomic composability is the revenue model. Rollups today monetize only their own blockspace. A shared sequencer like Espresso Systems or Astria monetizes the coordination between rollups, capturing value from transactions that span Arbitrum, Optimism, and Base in a single atomic bundle.
This flips the L2 business case. Isolated rollups compete on cost. A shared sequencer network creates a cooperative economic zone where value accrues to the coordination layer, not the individual execution environments, similar to how UniswapX captures value by coordinating solvers across chains.
The killer app is cross-rollup DeFi. A user swaps ETH on Arbitrum for USDC on Base and deposits into a lending pool on Optimism in one click. This atomic cross-rollup bundle eliminates bridging latency and counterparty risk, a feature impossible with isolated sequencers.
Evidence: MEV is the proof-of-concept. Shared sequencers like Espresso demonstrate that ordering rights have standalone value. Extracting and redistributing cross-rollup MEV from these atomic bundles provides the initial, verifiable revenue stream for the network.
protocol-spotlight
THE NEW ECONOMIC LAYER
Protocol Spotlight: The Contenders
Shared sequencers are not just infrastructure; they are the new competitive arena for rollup value capture.
01
Espresso Systems: The Decentralized Sequencing Collective
Espresso's HotShot consensus turns sequencing into a staked, permissionless market, directly challenging the centralized sequencer model of Arbitrum and Optimism.\n- Key Benefit: Enables cross-rollup atomic composability via shared sequencing state.\n- Key Benefit: Sequencer revenue is redistributed to rollups and their stakers, not a single entity.
100+
Validators
~3s
Finality
02
Astria: The Shared Sequencer as a Commodity
Astria provides a bare-metal, rollup-agnostic sequencing layer, allowing any rollup stack (e.g., Rollkit, Dymension RDK) to outsource ordering.\n- Key Benefit: Instant liquidity bootstrapping via native block space marketplace.\n- Key Benefit: Decouples sequencing from execution, enabling rollups to switch providers without a hard fork.
~500ms
Block Time
-90%
Dev Time
03
The Problem: MEV as a Rollup Tax
Today, proposer-builder separation (PBS) on L1 lets validators capture MEV. In solo-sequencer rollups, that value is captured entirely by the sequencer operator as a pure tax.\n- Consequence: Billions in potential user/developer value is extracted, stifling sustainable economic models.\n- Consequence: Creates centralization pressure and misaligned incentives between the rollup and its apps.
$500M+
Annual MEV
100%
Sequencer Take
04
The Solution: MEV Redistribution & Auctions
Shared sequencers like Espresso and Astria reintroduce a competitive block-building layer. This enables MEV auctions where revenue can be shared back to the rollup treasury or burned.\n- Key Benefit: Transforms MEV from a tax into a public good funding mechanism.\n- Key Benefit: Aligns sequencer incentives with rollup health through staking and slashing.
+30%
Revenue to Rollup
Trustless
Proving
05
AltLayer & EigenLayer: Restaked Security as a Moat
These protocols leverage EigenLayer's restaking to provide cryptoeconomic security for shared sequencer sets. This creates a defensible moat based on Ethereum's stake.\n- Key Benefit: Slashable security for sequencing, making censorship or reorgs economically prohibitive.\n- Key Benefit: Rapid bootstrapping of a credible, decentralized validator set from day one.
$15B+
Restaked TVL
Ethereum
Security Root
06
The Endgame: Rollups as App-Chain Markets
The final evolution is a dynamic marketplace where rollups rent sequencing and security. This mirrors how AWS commoditized server infrastructure.\n- Key Benefit: Modular specialization reduces costs and innovation cycles for rollup developers.\n- Key Benefit: Creates a liquid market for block space and security, driving efficiency and user experience parity with monolithic chains.
10x
More Rollups
-50%
Cost Reduced
counter-argument
THE ECONOMIC REALITY
Counter-Argument: Is This Just Another Middleware Token?
Shared sequencers are not middleware; they are a fundamental re-architecting of rollup value capture.
Sequencers capture rollup value. A rollup's sequencer is its economic engine, capturing MEV and transaction fees. A shared sequencer network like Espresso or Astria does not sit on top of rollups; it competes to become their core infrastructure, directly monetizing the flow of transactions.
Middleware tokens are optional. Services like The Graph's GRT or Pocket Network's POKT provide optional data/bandwidth. A shared sequencer's token is staked for security, used to slash malicious actors and govern the sequencing layer itself, making it a non-optional, protocol-level asset.
The comparison is flawed. Comparing a shared sequencer token to Chainlink's LINK or a standard oracle is incorrect. The correct analogy is Ethereum's ETH versus a sidechain's token—one secures the base settlement layer, the other a single application chain.
Evidence: The valuation of rollup sequencer rights is already evident. On Arbitrum and Optimism, sequencer revenue accounts for >90% of protocol revenue, demonstrating the immense value a shared sequencer network aims to capture and redistribute.
risk-analysis
THE CENTRALIZATION TRAP
Risk Analysis: What Could Go Wrong?
Shared sequencers promise economic efficiency but introduce novel systemic risks that could redefine rollup security models.
01
The Single Point of Failure
Consolidating sequencing for dozens of rollups into a single network creates a massive, attractive target. A successful attack or technical failure could halt $10B+ in cross-rollup TVL. The systemic risk dwarfs that of a single L2 outage.
- Censorship Risk: A malicious or captured sequencer can reorder or exclude transactions.
- Liveness Risk: Network downtime cascades across all connected rollups, breaking composability.
- Regulatory Target: A centralized choke point is easier for authorities to pressure or shut down.
1
Failure Point
>10
Rollups Impacted
02
Economic Capture & MEV Cartels
The sequencer with the most economic weight will dominate the shared network, leading to oligopoly. This centralizes MEV extraction and creates perverse incentives against decentralization.
- Stake Skew: Whales or large L2s can dominate the staking pool, controlling block production.
- Cross-Rollup MEV: Sophisticated actors can exploit atomic arbitrage across all connected chains, extracting value from users at scale.
- Fee Market Distortion: Dominant sequencers can prioritize their own rollups or partners, creating a two-tier system.
>60%
Stake Concentration Risk
$100M+
Cross-Chain MEV
03
The Interoperability Illusion
Guaranteeing atomic composability across rollups is a hard problem. A shared sequencer's failure to deliver seamless cross-L2 transactions undermines its core value proposition and could trigger a liquidity crisis.
- Settlement Latency: If the shared sequencer's blocks are slow to settle on L1, cross-rollup states become uncertain.
- Data Availability Gaps: Reliance on a single DA layer (e.g., Celestia, EigenDA) ties the sequencer's liveness to another external system.
- Protocol Fragmentation: Different rollups (Optimistic vs. ZK) have incompatible fraud proof windows, complicating atomic guarantees.
7 Days
Fraud Proof Window
~2s
Atomic Cross-L2 Latency
04
The Sovereignty Sacrifice
Rollups cede control over their transaction ordering and fee markets to a third-party network. This creates business risk and limits their ability to optimize for specific use cases or implement custom features.
- Loss of Competitive Edge: All rollups on the network have identical performance characteristics (latency, cost).
- Upgrade Coordination Hell: Protocol upgrades require consensus across a politically diverse set of rollup teams, slowing innovation.
- Exit Costs: Migrating away from a shared sequencer is complex and could fragment liquidity, creating vendor lock-in.
0
Custom Sequencing
High
Switching Cost
future-outlook
THE SEQUENCER SUPREMACY
Future Outlook: The Infrastructure War of 2024-2025
Shared sequencers will commoditize execution and force rollups to compete on economic security and data availability.
Sequencer revenue is the new battleground. Rollups currently capture MEV and fees from their centralized sequencer, but shared sequencers like Espresso and Astria will unbundle this function. This commoditizes block production, forcing L2s to find new revenue streams.
The value shifts to proposers and provers. With execution standardized, the economic moat moves to the proposer-builder separation (PBS) layer and the proof market. Rollups will compete on who can offer the cheapest, fastest ZK proofs via Risc Zero or Succinct.
Data availability becomes the primary cost. Execution is cheap; posting data is not. Rollups will optimize for the cheapest DA layer, creating a direct price war between EigenDA, Celestia, and Avail. The winning L2 will be the one with the lowest cost-per-byte.
Evidence: Espresso's testnet processes orders for multiple L2s, demonstrating cross-rollup atomic composability. This proves a single sequencer can serve fragmented execution layers, validating the shared model.
takeaways
SHARED SEQUENCER ECONOMICS
Key Takeaways for Builders and Investors
The shift from isolated to shared sequencing is not an incremental upgrade; it's a fundamental re-architecting of rollup cost structures and revenue models.
01
The MEV Revenue Dilemma
Solo-sequencer rollups currently capture ~100% of MEV but face immense pressure to decentralize, which fragments this revenue. Shared sequencers like Astria and Espresso solve this by pooling block production, creating a new market for MEV distribution.
- Revenue Share: Validators and stakers earn from a shared MEV pool.
- Predictable Yields: Enables sustainable staking economics for rollup tokens.
- Builder Competition: Drives better execution prices for users via PBS (Proposer-Builder Separation) models.
$500M+
Annual MEV Pool
10-30%
Staker Yield Boost
02
Cross-Rollup Liquidity Unlocks
Atomic composability across rollups is currently impossible, forcing users into slow, insecure bridges. A shared sequencer acts as a coordinated settlement layer, enabling native cross-rollup transactions.
- Atomic Arbitrage: Traders can execute strategies across Optimism, Arbitrum, zkSync in one block.
- Unified Liquidity: DEX pools can span multiple L2s without wrapping assets.
- Intent-Based Flow: Projects like UniswapX and Across can source liquidity from any connected chain seamlessly.
<1s
Cross-L2 Finality
50-70%
Bridge Cost Reduction
03
Infrastructure Cost Collapse
Running a dedicated sequencer is a ~$1M+/year operational burden for startups, creating centralization pressure. Shared sequencing commoditizes this layer, turning a fixed cost into a variable utility.
- OpEx to Zero: Rollups pay per block, not for 24/7 validator ops.
- Scale Instantly: Throughput scales with the shared network, not solo hardware.
- Security Inheritance: Leverage the economic security of the shared sequencer set (e.g., EigenLayer restakers).
90%+
OpEx Reduction
$50k
Launch Cost
04
The Interoperability Premium
Isolated rollups compete on monolithic performance. Shared sequencers shift competition to ecosystem connectivity. The rollup with the best integrated apps wins.
- Network Effects: Value accrues to rollups in the most connected shared sequencer cluster.
- Developer Capture: Build once, deploy to all connected chains via Rollup-As-A-Service platforms like Conduit.
- Vendor Lock-In Reverse: Exit costs are low, forcing sequencer providers to compete on service quality.
10x
Dev Onboarding
L1→L2
Traffic Shift
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